RU2733706C1 - Disinfection method of a garbage chute of a building, an installation for disinfection of a garbage chute and a garbage chute of a building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to garbage ducts of buildings and facilities for their cleaning and disinfection. Building garbage chute is configured to lock lower opening of barrel and controlled overlapping of communication of barrel cavity with atmosphere, wherein in the wall of the lower part of the barrel and / or in the lower gate, there is a window for insertion of hot air into the cavity of the barrel and, coaxially to the window on the wall and / or on the gate, there is a branch pipe for connection of the hot air supply of the disinfecting apparatus to it. Disinfection is carried out by supplying to trunk of garbage duct from below upwards under pressure of hot air heated to temperature of 200 °C, with subsequent control of air temperature and pressure in the barrel cavity. Disinfecting plant comprises an electric air heater and a hot air blower communicated therewith, which is equipped with a nozzle for communicating with the garbage chute trunk cavity.

EFFECT: technical result consists in reduction of labor input and efficiency of disinfection of garbage chute.

4 cl, 2 dwg

Description

This group of inventions relates to garbage chutes of buildings and means for their cleaning and disinfection. The group of inventions is intended for use in the construction of garbage chutes that have connections with means for cleaning and disinfecting garbage chutes, allowing the use of less labor-intensive and more effective carriers for the destruction of harmful bacteria, microorganisms and viruses in the trunks of chutes.

The preferred use of the method and means for implementing the method are sectional refuse chutes, assembled from separate sections, each of which has an inner metal shell, an outer metal shell and a layer of material with thermal and noise insulation properties located between the shells, the material being made of an asbestos-cement mixture. Such garbage chutes include, for example, garbage chutes manufactured by JSC SANTEKHPROM under the patent RU 2250320 C1, 04/20/2005, as well as other similar patents that have metal shells of garbage chutes in their solutions.

Garbage chutes with a metal inner shell are less susceptible to the influence of microorganisms and the formation of build-ups with harmful bacteria, microorganisms and viruses on the inner surfaces of garbage chute shafts - in comparison with concrete garbage chutes, which have pores on the inner surface, microcracks and a relatively low thermal conductivity. At the same time, the cleaning and disinfection of concrete waste chutes is associated with the greatest possible laboriousness and minimum efficiency in killing microorganisms. This is due to the fact that microorganisms located in concrete pores and microcracks are less accessible for cleaning and disinfection agents.

A known method of disinfection of a garbage chute trunk with a slide device in the lower part of the trunk, floor loading valves with buckets and ladle blocking devices on the trunk, which is connected at the top with a ventilation valve. The method includes blocking the buckets in the closed position, feeding the disinfectant solution into the barrel by pouring it from top to bottom along the inner surface of the barrel, holding the inner surface of the barrel in a state moistened with disinfectant solution for at least 30 minutes and unlocking the buckets (RU 2162379 C1, 27.01.2001) ...

A garbage chute of a multi-storey building is known, containing a barrel, inlet valves, a gate in the lower part, a ventilation deflector in the upper part, an unloading device in the base, a system for cleaning the bore of a garbage chute, as well as a ventilation chamber connected to the deflector, while the garbage chute contains disinfectants for the barrel, including a pipeline for supplying water and / or a disinfectant solution, a fire extinguishing system, while the ventilation chamber has two compartments interconnected by a channel, one compartment is made with an air damper and connected to a deflector, and the other is located coaxially with the barrel and is equipped with a rotary cover installed above the connecting channel, barrel sections are made with platforms for support on interfloor ceilings, the unloading device is made in the form of a tray for collecting garbage and a shutter communicated with a common channel with the barrel, while the shutter is made in the form of a pipe with a cover at the base (RU 84891 U1, 20.07.2009 ).

A device for disinfection of garbage chutes of residential and public buildings is known, containing a container with a disinfectant solution and a sprayer on a flexible hose, introduced into the trunk of a garbage chute through a loading valve with the ability to move along the height of the garbage chute, while the device is made in the form of a portable kit, and the solution is sprayed to form

coarse aerosol, and in essence the device is an installation for the disinfection of a waste pipeline (RU 37656 U1, 05/10/2004 - a prototype of the installation).

There is a known method of disinfection of a garbage chute of a building, characterized by the fact that in the process of disinfection of a garbage chute having a barrel, a slide device in the lower part of the barrel, floor loading valves of the barrel with buckets and an upper opening communicated with the ventilation duct, the buckets are first blocked in the closed position, then disinfectant solution into the barrel and moisten the inner surface of the barrel with it, then keep the barrel in a state moistened with a disinfectant solution for at least 30 minutes and then unblock the buckets, and the disinfectant solution is fed into the barrel in an aerosol state through hermetic valves pre-installed on the barrel floor by floor for disinfection from the bottom up, starting from the slide gate, the solution is fed using a "hot" fog generator having a droplet size of 1 ÷ 50 microns (RU 2374012 C1, 11/27/2009 - a prototype of the method and garbage chute).

The method disclosed in the prototype is ineffective and laborious. The relatively large labor intensity of the conventionally "wet method" is associated with the need to evacuate the residents of the house for the duration of disinfection, subsequent drying of the trunk and its ventilation, and the ineffectiveness of the method and means of its implementation is due to the fact that they do not provide complete destruction of harmful deposits and pathogenic microorganisms in the chute trunk including viruses.

The technical result of the group of inventions, which is presented in this description, is to reduce the complexity of the method and increase the efficiency of disinfection of the garbage chute.

The technical result is obtained by the method of disinfection of the garbage chute of a building, characterized by the fact that they close the lower outlet of the trunk of the chute, its loading valves and the opening of the outlet pipe of the ventilation deflector of the chute and serve a disinfectant from the bottom up into the trunk of the garbage chute, and as a disinfectant is used heated to a temperature of 200 ° With hot air, which is fed into the barrel under pressure through a window in the lower part of the garbage chute, the temperature and air pressure in the barrel cavity is regulated by the flow rate of hot air, the temperature of the inner surface of the barrel is adjusted by changing the flow section of the deflector pipe within 80-100 ° C, and is injected into the barrel hot air until the heat-dried growths on the inner surface of the trunk and the transformation of these growths into a dry bulk mass, stop the supply of hot air into the trunk, open its lower opening, analyze the resulting mass for the presence of pathogenic microorganisms in it ganisms and viruses, upon detection of which the described cycle of the method is repeated.

The technical result is obtained by an installation for disinfection of a garbage chute of a building, containing a blower of a disinfectant into the trunk of a garbage chute of a building, and the blower contains an air fan located in it for supplying hot air to the barrel under pressure, and the installation has an electric air heater connected to a hot air blower, which is equipped a connecting pipe for connecting the blower with the cavity of the garbage chute.

The technical result is obtained by a garbage chute of a building containing a barrel made of sections with loading valves located along its height, a ventilation deflector communicated with the barrel with an outlet pipe in the upper part of the garbage chute, and the garbage chute contains a locking lower opening of the barrel in the lower part of the garbage chute, and located in the outlet in the deflector pipe, the upper damper, which overlaps the communication of the outlet pipe with the atmosphere, in the wall of the lower part of the barrel and / or in the lower damper, a window is made for introducing hot air into the barrel cavity and coaxially to the window on the wall of the lower part of the barrel and / or on the wall of the lower damper there is a branch pipe for connecting the hot air blower of the disinfectant installation to it.

As the bottom flap of the garbage chute, the gate wall or the wall of the hatch cover is used, each of which is located in the lower part of the garbage chute in the garbage outlet area above the garbage collection chamber.

Figure 1 shows a schematic example of the relative position of the garbage chute and the associated installation for disinfection of the garbage chute.

Figure 2 shows an example of the location of the window in the wall of the garbage discharge hatch at the bottom of the garbage chute (diagram).

The method is illustrated by the operation of an installation for disinfection of a garbage chute, which contains an electric air heater 1 and a hot air blower 2, which are separate units, and their working cavities are communicated with each other by a branch pipe 3.

The blower 2 has a branch pipe 4 communicated with the cavity 5 of the lower section 6 of the garbage chute. The barrel 7 of the garbage chute is made of sections 6, with the cavities 5 of all the barrel sections communicating with each other. From the inside, the barrel has a metal inner barrel shell 8, closed around the barrel perimeter, made of stainless steel. Outside, the barrel 7 has a metal outer shell 9. Between the shells 8 and 9 there is an asbestos-cement layer 10 closed along the perimeter of the section 6, made by casting. Layer 10 is made for thermal insulation of the channel, while it is a noise insulating layer.

Each section of the garbage chute has a loading valve 11. The upper section of the barrel is connected to the pipe 12 of the ventilation deflector 13. B

the pipe 12 is located an upper flap 14, which closes the pipe 12 from its communication with the atmosphere when the garbage chute is disinfected. In the lower part of the garbage chute, one or two windows 15 are made for entering hot air through it into the cavity 5 of the barrel 7. The window 15 can be located in the gate wall 16 - a device that closes the outlet of the barrel. The gate wall 16 closes the outlet of the garbage chute in its lower part when the garbage chute is disinfected, while the gate wall 16 opens the outlet of the garbage chute when it is necessary to unload garbage from the garbage chute into the receiving chamber 17. Window 15 can be made in any other device that covers the bottom hole of the chute barrel, for example, in a closing hatch. On the axis of the opening of the window 15 on the gate wall 16, an outwardly extending connecting pipe 18 is fixed, rigidly and hermetically connected to the gate wall 16.

In another version of the garbage chute, the window 15 is made in the wall of the lower section 6 of the barrel 7, as shown in the drawing. In this embodiment, the window has a standard connecting pipe 18 rigidly and hermetically connected to the wall of the lower section. In the working position of the garbage chute, one window 15 or both windows 15 are closed with plugs 19. During the disinfection of the garbage chute, one window 15 is open and a branch pipe 4 of the hot air blower 2 is connected to its branch pipe 18. It is envisaged that the window 15 can be made in the wall 16 of the gate and / or in the wall of the lower section 6 of the barrel - in the lower part of this section.

The gate wall 16 is located under the butt end of the barrel 7 so that it covers the barrel outlet when disinfection is performed. In this case, the cavity 5 of the barrel 12 communicates with the working cavity of the blower through the window 15. If hot air is supplied into the cavity 5 of the barrel through the window 15, which is made in the wall of the section 6 of the garbage chute, then the hole 15 in the wall 16 of the gate is closed with a plug 19.

The gate wall 16 with screw ties 20 is connected to the wall of the lower section 6 of the barrel, the pipe 18 of the gate wall 16 is connected to the pipe 4 of the blower 2 by a heat-resistant tubular extension 21. The gate wall 16 of this version of the garbage chute performs the functions of the bottom flap of the garbage chute.

Disinfection of the garbage chute of the building is carried out with an installation for disinfection of the garbage chute as part of an electric air heater 1 and a hot air blower 2. For this, the disinfection unit is located in the waste collection chamber 17. This arrangement does not preclude the arrangement of the installation outside the chamber 17, in which case a tubular extension 21 of an appropriate length is used.

The electric heater 1 and the blower 2 are mounted on the frame 22 and are united by this frame, which together represent one mobile unit having a fan 23 of a relatively large capacity, while the working chamber of the fan is communicated through a branch pipe 4 and a tubular extension 21 with the barrel 7 of the garbage chute.

Provided for the execution of the garbage chute (figure 2), in which the window 15 for entering the cavity 5 of the barrel 7 of hot air is made in the wall 24 of the hatch, which is connected with the support ring 25 of the garbage disposal by a hinge 26. (Section 6 of the barrel 7 is supported on the ring. Support rings 25 shown also in figure 1). The wall 24 of the hatch serves as the lower flap of the garbage chute.

In the presented versions of the garbage chute, either the gate wall 16 or the hatch wall 24, which are located in the lower part of the garbage chute in the garbage outlet area, above the garbage collection chamber 17, are used as the lower flap of the garbage chute.

The method of disinfection of a garbage chute of a building is disclosed by the operation of an installation for disinfection of a garbage chute in a functional relationship with the design of a garbage chute. This relationship is just one of many examples of its implementation, which does not exclude the layout solutions of the garbage chute and installations for its disinfection.

To disinfect the garbage chute, the loading valves 11 of the barrel 7 on all floors of the building are closed so that the user cannot use them. Close the gate wall 16 and the damper 14 of the ventilation deflector 9. Connect the pipe 18 of the gate wall 16 with the pipe 4 of the hot air blower 2. In the electric heater 1, the air entering through the inlet of the electric heater from the atmosphere is heated in stages.

At the first stage of heating the air, an electric hot air blower 2 is turned on and it is heated in an electric heater 1 to a temperature of 50 ° C. The hot air blower 2 is switched on, the fan 23 of which sucks hot air from the electric heater 1 into the working chamber of the fan 23 and displaces it under pressure into the cavity 5 into the barrel 7 through the bell 18. Heat from the hot air is transferred to the inner metal shell 8 of the barrel 7 of the garbage chute.

Then the air is heated in the electric heater 1 to a temperature of 100 ° C and the described heating cycle of the metal shell 8 of the barrel 7 is repeated. After the air is heated to a temperature of 200 ° C, the air heating is stopped and the electric heater is transferred to the nominal operating mode.

Hot air heats up the metal inner shell 8 of the barrel closed around the perimeter within the range of 80-100 ° C and maintain the heated inner shell of the barrel for a period of time during which the smallest hazardous particles - microorganisms, viruses and other dangerous elements - are dried in the build-ups of the garbage chute.

Since the inner shell 8 of the shaft of the refuse chute is made of metal, with high thermal conductivity, and the asbestos-cement layer 10 following it is mainly a thermal insulating material, the heat from the hot air is transferred

the inner metal shell 8 and relatively quickly and evenly dissipates in the metal layer of the shell 8 along its entire height. Outside the inner shell 8, heat dissipation is prevented by the asbestos-cement layer 10 of the chute shaft, and in this regard, the largest share of heat from the hot air is transferred to the inner metal shell 8 of the chute. In this case, the highest degree of use of the heat of hot air is achieved to heat the inner shell of the garbage chute and to dry the specified harmful particles contained in the growths on the inner surface of the inner shell 8 of the garbage chute.

Hot air under pressure is supplied constantly through the window 15 in the wall 16 of the gate or through the window 15 of the lower section 6 of the barrel of the garbage chute, or through the window 15 in the hatch 24 (Fig. 2). In any variant of the location of the window 15, hot air is supplied to the trunk of the chute through the lower part of the chute, from bottom to top, through the window 15.

When hot air is supplied under pressure to the barrel 7, the blower 2 regulates the flow rate of hot air coming out of it by increasing or decreasing the number of revolutions of the fan 23. The temperature of the metal inner shell 8 of the barrel and the air pressure in the barrel are controlled by the hot air flow.

According to the readings of the air pressure sensors in the barrel 7 and the temperature of the pipe 12 of the deflector 9, the thermodynamic process of heating the barrel and the thermal state of the metal inner shell 8 of the barrel are judged.

The damper 14 of the deflector 9 regulates the predetermined limits of air pressure in the barrel 7 and the predetermined temperature limits of the inner shell 8 of the barrel according to the readings of the air pressure sensor in the barrel 7 and the temperature sensor of the pipe 12 of the ventilation deflector 9. This adjustment is carried out by changing the flow area of the pipe 12, which is changed by moving damper 14.

The flow area of the pipe 12, the air pressure in the barrel, the temperature of the pipe 12 and the temperature of the metal inner shell 8 of the barrel 7. The nominal temperature of the shell 8 is set in the range of 80-100 ° C and at such a steady temperature of the shell 8 hot air is periodically supplied to the barrel 7 or constantly, maintaining the specified temperature at which these microorganisms die.

The heat generated in the trunk is used to dry moisture and growths on the inner surface of the shell 8 until these growths turn into a dry, lifeless mass (ash) in the form of loose particles. Stop the supply of hot air to the barrel, open the gate wall 16, collect the specified mass and analyze it for the presence of living microorganisms, viruses and other pathogenic particles. If pathogenic particles harmful to health or non-dried living microorganisms are found in the mass, the described disinfection cycle is repeated. At the slightest danger of ignition of a mixture of hot air with particles contained in it in the trunk of a garbage chute, a substance is added to the hot air under pressure that neutralizes the remaining oxygen in the hot air and excludes the possibility of any ignition, smoldering or combustion.

In the described process, the installation is connected to the garbage chute during the disinfection of the garbage chute. After disinfection of one garbage chute, the installation is transported to another facility to be disinfected with hot air. At the same time, the installation disclosed in this description can be used for disinfection of ventilation systems of buildings.

The method, installation and garbage chute in their functional relationship allow the use of hot air as a disinfectant in relation to garbage chutes, which makes it possible to eliminate labor-intensive and environmentally harmful conventionally dry chemicals and conventionally wet disinfectants that require large labor and material costs.

Claims (4)

1. A method for disinfecting a garbage chute of a building, characterized in that they close the lower outlet of the chute trunk, its loading valves and the opening of the outlet pipe of the ventilation deflector of the chute and serve a disinfectant from the bottom up into the trunk of the chute, characterized in that a heated to a temperature is used as a disinfectant 200 ° C hot air, which is fed into the barrel under pressure through a window in the lower part of the garbage chute, regulates the flow of hot air, the temperature and air pressure in the barrel cavity, by changing the flow section of the deflector pipe, the temperature of the inner surface of the barrel is adjusted within 80-100 ° C, hot air is injected into the barrel until the heat dries up the growths on the inner surface of the barrel and these growths turn into a dry bulk mass, stop the supply of hot air into the barrel, open its lower opening, analyze the resulting mass for the presence of pathogenic microorganisms and viruses in it owls, upon detection of which the described cycle of the method is repeated. 2. An installation for disinfection of a garbage chute of a building, containing a disinfectant blower into the barrel of a garbage chute of a building, characterized in that the blower contains an air fan located in it for supplying hot air to the barrel under pressure, and at the same time, the installation has an electric air heater connected with a hot air blower, which is equipped with a connecting pipe for connecting the blower with the cavity of the garbage chute. 3. The garbage chute of the building, containing a barrel made of sections with loading valves located along its height, a ventilation deflector connected to the barrel with an outlet pipe in the upper part of the garbage chute, characterized in that the garbage chute contains a locking lower opening of the barrel in the lower part of the garbage chute and located in in the outlet pipe of the deflector, the upper damper, which overlaps the communication of the outlet pipe with the atmosphere, in the wall of the lower part of the barrel and / or in the lower damper there is a window for introducing hot air into the barrel cavity, coaxially to the window on the wall of the lower part of the barrel and / or on the wall of the lower damper, a branch pipe is fixed for connecting the hot air blower of the disinfectant installation to it. 4. Garbage chute according to claim 3, characterized in that the gate wall or the wall of the hatch cover is used as the bottom damper of the garbage chute, each of which is located in the lower part of the garbage chute in the area of the waste outlet above the waste collection chamber.

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